CN107089552A - A kind of spindle device for being equipped with core setting machine structure - Google Patents

Abstract

The invention discloses a kind of spindle device for being equipped with core setting machine structure, including spindle and spindle support, the core setting machine structure includes elevating lever of the top provided with locating piece, the lifting drive component of driving lifter rod lifting, the rotary drive assembly of driving elevating lever rotation；The bottom of locating piece opens up the semi-spherical shape groove coordinated with spindle top.In operation, rotary drive assembly driving elevating lever rotation, locating piece at the top of elevating lever leaves the top of spindle, textile-bobbin is sleeved on spindle blade, rotary drive assembly is driven at the top of elevating lever spinning reduction to spindle blade, lift drive component driving elevating lever to decline, the semi-spherical shape groove of locating piece is enclosed on the top of spindle blade, to reduce Oscillation Amplitude of the spindle in winding process.

Description

A kind of spindle device for being equipped with core setting machine structure

Technical field

The present invention relates to textile technology field, and in particular to textile machine equipment.

Background technology

Current frame in winding process due to Winding spindle irregular structure, because weight itself constantly increases during coiling Plus, cause its vibration aggravation, influence the tight ness rating of yarn coiling, and broken yarn is easily caused, influence manufacturing schedule.

For above-mentioned technical problem, Authorization Notice No. CN 202785079U, the reality in authorized announcement date on March 13rd, 2013 Disclosed a kind of textile machine ingot frame with new and made by oneself cored structure, the device includes U-shaped support, and the U-shaped support two ends are accordingly Provided with ingot frame, wherein at least one ingot frame is flexibly connected with U-shaped support.The utility model is simple in construction, reliable operation, and at least one Individual ingot frame is flexibly connected with U-shaped support, can reduce Oscillation Amplitude of the Winding spindle in winding process, it is to avoid broken yarn situation occur Generation, improve the smoothness of coiling, add yield, improve economic benefit.But, above-mentioned textile machine ingot frame is made by oneself Cored structure, which needs spindle being arranged between two ingot frame, can just play reduction Winding spindle Oscillation Amplitude in winding process Effect, in this way, will increase spindle installation difficulty.

The content of the invention

Technical problem solved by the invention：How spindle Oscillation Amplitude in winding process is reduced.

In order to solve the above technical problems, the present invention provides following technical scheme：A kind of spindle dress for being equipped with core setting machine structure Put, including spindle and spindle support, the spindle is by bearing on spindle support；The spindle support is provided with core setting machine structure, described fixed Core mechanism includes elevating lever of the top provided with locating piece, the lifting drive component for driving lifter rod lifting, driving elevating lever rotation Rotary drive assembly；The bottom of locating piece opens up the semi-spherical shape groove coordinated with spindle top；The elevating lever is in 7 words Shape.

In above-mentioned technical proposal, the spindle is arranged on spindle support by bearing；The spindle includes spindle blade, is arranged on ingot Spindle blade pedestal, the belt wheel on spindle blade pedestal of bar bottom.The bottom of spindle blade pedestal is provided with ingot axle, and the bearing is arranged on On ingot axle.

By above-mentioned technical proposal, a kind of operation principle for the spindle device for being equipped with core setting machine structure of the present invention is as follows： Swingle is in the L-shaped of handstand shape, i.e. 7 fonts, rotary drive assembly driving elevating lever rotates along vertical rotation centerline, risen Locating piece at the top of drop bar leaves the top of spindle；Afterwards, textile-bobbin is sleeved on spindle blade, and bobbin is exposed on spindle blade top；It Afterwards, rotary drive assembly is driven at the top of elevating lever spinning reduction to spindle blade, and lifting drive component driving elevating lever declines, locating piece Semi-spherical shape groove be enclosed on the top of spindle blade；Afterwards, transmission belt driving pulley rotates, and belt wheel drives spindle blade and weaving thereon Sleeve rotating.

By above-mentioned technical proposal, when rotated, its amplitude vibrated is positioned the groove limitation on block to spindle, in this way, can Reduce Oscillation Amplitude of the spindle in winding process.

By above-mentioned technical proposal, can avoid because Oscillation Amplitude is excessive when spindle rotates and the hair of broken yarn situation that occurs It is raw, the smoothness of coiling is improved, with beneficial technique effect.

The rotary drive assembly include being articulated in rotary drive assembly rotating cylinder on substrate and rotary drive assembly rotating shaft, Rotate gear in the rotary drive assembly rotating shaft, one section be arranged on rotary drive assembly rotating cylinder madial wall rotation Conversion arc-shaped rack；The axial line of rotary drive assembly rotating shaft deviates the rotation centerline of rotary drive assembly rotating cylinder；The rotation Turn drive component rotary shaft hollow, the elevating lever activity is plugged in the hollow intracavitary of rotary drive assembly rotating shaft, the side of middle cavity Guide pad is set on wall, the side wall of elevating lever is provided with the guide groove coordinated with the guide pad.By above-mentioned design, rotation driving group Part rotating cylinder is rotated, and the rotation arc-shaped rack on rotary drive assembly rotating cylinder is engaged with the rotate gear, the rotation arc It is disengaged from after shape rack drives rotate gear rotation fixed angle with rotate gear, the rotate gear of rotation fixed angle is led to The locating piece crossed at the top of rotary drive assembly rotating shaft driving elevating lever rotation fixed angle, elevating lever deviates the top of spindle blade and allowed It is enclosed on positioned at textile-bobbin on spindle blade.By above-mentioned design, the angle of rotary drive assembly rotating cylinder rotation is difficult to accurate predetermined, error May be larger, still, the anglec of rotation that the rotate gear driven with arc-shaped rack is rotated thereon is accurate, predetermined, is entered And, the anglec of rotation of rotary drive assembly rotating shaft is accurate, predetermined, and then, the angle of elevating lever rotation is accurate, pre- Fixed, it is ensured that after elevating lever spinning reduction, it is accurately positioned above and below locating piece and spindle blade thereon.

The lifting drive component include being articulated in lifting drive component rotating cylinder on substrate and the rotating shaft of lifting drive component, Installed in it is described lifting drive component rotating shaft on travelling gear, be arranged on lifting drive component rotating cylinder madial wall on one section rise Drop arc-shaped rack, the middle rotating disk on substrate；The axial line for lifting drive component rotating shaft deviates lifting drive component The rotation centerline of rotating cylinder；The lifting drive component rotary shaft hollow, the elevating lever is screwed onto lifting drive component rotating shaft Hollow intracavitary；The middle rotating disk is engaged with the travelling gear.By above-mentioned design, after textile-bobbin is set on spindle blade, instead Drive elevating lever spinning reduction to the rotary drive assembly rotating cylinder of rotation, the locating piece at the top of elevating lever be located at spindle blade just on Side.Afterwards, rotation is disengaged from arc-shaped rack with rotate gear.Afterwards, the lifting drive component rotating cylinder of rotation, liter thereon Drop arc-shaped rack starts to engage with middle rotating disk, and middle rotating disk drives travelling gear, travelling gear driving lifting drive component Rotating shaft rotates, and lifting drive component rotating shaft is under the cooperation of guide pad and guide groove, and driving elevating lever declines, at the top of elevating lever Locating piece declines, and is pressed at the top of spindle blade.By above-mentioned design, the angle of lifting drive component rotating cylinder rotation is difficult to accurately make a reservation for, by mistake It is poor may be larger, still, the anglec of rotation that the travelling gear driven with arc-shaped rack is lifted thereon be it is accurate, predetermined, And then, the anglec of rotation of lifting drive component rotating shaft is accurate, predetermined, and then, the displacement of lifter rod lifting is accurate , it is predetermined, it is ensured that it is suitable to coordinate at the top of locating piece and spindle blade, not tight also not loose.

The substrate is arranged on spindle support；The rotary drive assembly is located at the lower section of substrate, the lifting drive component Positioned at the top of substrate；Drive shaft is articulated with substrate, the top of drive shaft is provided with lifting drive gear, the bottom of drive shaft Rotary drive gear is installed；The periphery of lifting drive component rotating cylinder is provided with lifting driven gear, rotary drive assembly rotating cylinder Periphery rotary drive gear is installed, lifting drive gear engage with lifting driven gear, rotary drive gear and rotate from Moving gear is engaged.By above-mentioned design, workman's rotation driving axle, lifting drive gear and rotary drive gear synchronous rotary, lifting Drive component rotating cylinder and rotary drive assembly rotating cylinder synchronous rotary.When lifting arc-shaped rack is engaged with middle rotating disk, rotation Disengaged position is in arc-shaped rack and rotate gear；When rotation arc-shaped rack is engaged with rotate gear, lifting arc Rack is in disengaged position with middle rotating disk.

Be provided with locking system in rotary drive assembly rotating cylinder, locking system include the first semicircular ring being arranged on base and Second semicircular ring, solution lock slide, the slide bar on rotary drive assembly rotating cylinder madial wall being slidably fitted on base；The One semicircular ring and the second semicircular ring are symmetrically arranged on the left and right sides of rotary drive assembly rotating shaft, the tail of the first semicircular ring The tail end of end and the second semicircular ring is hinged on base, the head end elastic connection of the head end of the first semicircular ring and the second semicircular ring, First semicircular ring, the second semicircular ring are contacted with rotary drive assembly axis friction；Solve the head end that lock slide is located at the first semicircular ring And second semicircular ring head end between, solution lock slide be provided with curved groove.

By the above-mentioned explanation to locking system, the operation principle of the locking system is as follows：Rotary drive assembly rotating cylinder revolves Turn, the slide bar on rotary drive assembly rotating cylinder madial wall is caught in the curved groove first, driving solves lock slide along rotation driving group The radial direction of part rotating shaft moves linearly (close to rotary drive assembly spindle central direction), and solution lock slide makes the head of the first semicircular ring End and the head end of the second semicircular ring are located remotely from each other, in this way, the first semicircular ring, the second semicircular ring no longer with rotary drive assembly rotating shaft CONTACT WITH FRICTION, i.e. rotary drive assembly rotating shaft are no longer locked；Afterwards, the arc-shaped rack on rotary drive assembly rotating cylinder madial wall Engaged with rotate gear, when being disengaged from rotate gear, slide bar is slided also close to the curved groove, slide bar driving unblock is covered Radial direction of the block along rotary drive assembly rotating shaft moves linearly (away from rotary drive assembly spindle central direction), in elastic force Under effect, the head end of the head end of the first semicircular ring and the second semicircular ring is mutually drawn close, and the first semicircular ring and the second semicircular ring are again Brake rotary drive assembly rotating shaft.The locking of the rotary drive assembly rotating shaft, is the lock of elevating lever and locating piece thereon It is fixed.

The floor installation is on the substrate；The base be provided with articulated column, the tail end of first semicircular ring and The tail end of second semicircular ring is hinged on the articulated column；The head end of first semicircular ring and the head end of the second semicircular ring pass through Adjustable spring elastic connection.

The head end of first semicircular ring is provided with the first extension, the first extension and opens up the first V-arrangement chute；Second semicircular ring Head end be provided with the second extension, open up the second V-arrangement chute, the first V-arrangement chute and the second V-arrangement chute or so on the second extension It is symmetrical arranged；Solve lock slide and be provided with the first slide bar and the second slide bar, first slide bar coordinates in the first V-arrangement chute Interior, second slide bar coordinates in the second V-arrangement chute；Linear sliding block chute is opened up on base, solution lock slide is slided Coordinate in the sliding block chute；First V-arrangement chute is combined by first linear chute and Article 2 linear chute, Wherein, first linear chute is parallel with the sliding block chute；The curved groove is S-shaped, and the slide bar is in the curved groove During middle slip, solution lock slide moves linearly along the sliding block chute, and the first slide bar on solution lock slide is first by described First linear chute slips into the Article 2 linear chute, the head end of the first semicircular ring and the head end phase of the second semicircular ring Mutually draw close, afterwards, the first slide bar on solution lock slide slips into first linear by the Article 2 linear chute to be slided Groove, the head end of the first semicircular ring and the head end of the second semicircular ring are located remotely from each other.

By above-mentioned design, the slide bar on rotary drive assembly rotating cylinder is passed by the front half section of sigmoid curve groove, and solution lock slide is to connecing Nearly rotary drive assembly spindle central direction movement, i.e. the first slide bar slips into the Article 2 by first linear chute The head end of linear chute, the head end of the first semicircular ring and the second semicircular ring is located remotely from each other, and is no longer braked rotary drive assembly and is turned Axle.Slide bar on rotary drive assembly rotating cylinder is passed by second half section of sigmoid curve groove, and solution lock slide turns to away from rotary drive assembly Axle center position is moved, i.e. the first slide bar slips into first linear chute, first by the Article 2 linear chute The head end of semicircular ring and the head end of the second semicircular ring are mutually drawn close and resetted, and rotary drive assembly rotating shaft is braked again.

The bottom of first extension is provided with second time convex portion, first provided with first time convex portion, the bottom of the second extension Opened up on convex portion and open up the second lockhole on the first lockhole, second time convex portion；Lock slide is solved provided with the first upper convex portion and second Convex portion, the first upper convex portion is provided with the first lock pin, and the second upper convex portion is provided with the second lock pin, and the first lock pin and the second lock pin are horizontal Set；First slide bar is arranged on the top of the first upper convex portion, and second slide bar is arranged on the top of second upper convex portion Portion, the first slide bar and the second slide bar, which are erect, to be set；First slide bar slips into described first by the Article 2 linear chute The process of bar linear chute, is exactly that the first lock pin inserts the mistake that first lockhole, the second lock pin insert second lockhole Journey.

By above-mentioned design, when arc-shaped rack is disengaged from rotate gear on rotary drive assembly rotating cylinder, on solution lock slide The first slide bar first linear chute is slipped into by the Article 2 linear chute, synchronously, the first lock pin insertion First lockhole, afterwards, slide bar leaves curved groove, in this way, solution lock slide and the first semicircular ring, the second semicircular ring are because of the first lock Pin insertion first lockhole, the second lock pin insert second lockhole and are locked.

The periphery of rotary drive assembly rotating shaft is provided with elastic-friction ring, and the first semicircular ring and the second semicircular ring surround the bullet Frottage ring, and contacted with the elastic-friction ring resilience.First semicircular ring and the second semicircle surround elastic-friction ring, elasticity Drag ring is locked by locking, rotary drive assembly rotating shaft.The material of the elastic-friction ring can be rubber.

Brief description of the drawings

The present invention is described further below in conjunction with the accompanying drawings：

Fig. 1 is a kind of structural representation for the spindle device for being equipped with core setting machine structure of the present invention；

Fig. 2 is the structural representation of core setting machine structure 20 in Fig. 1；

Fig. 3 is the structural representation of the gained of vertical view lifting drive component 60 in Fig. 2；

Fig. 4 is the structural representation that the gained of rotary drive assembly 30 is looked up in Fig. 2；

Fig. 5 be Fig. 4 in rotate gear 34 be hidden after structural representation；

Fig. 6 is enlarged drawing at A in Fig. 5；

Fig. 7 is B direction views in Fig. 6；

Fig. 8 is Fig. 7 right view；

Fig. 9 is the structural representation of solution lock slide 44 in Fig. 8；

Figure 10 is Fig. 9 top view；

Figure 11 is Figure 10 right view.

Symbol description in figure：

10th, spindle；101st, spindle blade；103rd, spindle blade pedestal；104th, belt wheel；105th, ingot axle；11st, spindle support；12nd, bearing；

20th, core setting machine structure；21st, elevating lever；210th, guide groove；22nd, locating piece；

30th, rotary drive assembly；31st, substrate；32nd, rotary drive assembly rotating cylinder；33rd, rotary drive assembly rotating shaft；330、 Guide pad；34th, rotate gear；36th, rotation arc-shaped rack；39th, elastic-friction ring；

40th, locking system；41st, base；42nd, the first semicircular ring；43rd, the second semicircular ring；44th, lock slide is solved；45th, slide bar； 46th, curved groove；47th, articulated column；48th, adjustable spring；49th, the first extension；50th, the first V-arrangement chute；51st, first linear Chute；52nd, Article 2 linear chute；53rd, the first slide bar；54th, the second slide bar；55th, sliding block chute；56th, first time convex portion； 57th, the first upper convex portion；58th, the second upper convex portion；59th, the first lock pin；

60th, drive component is lifted；61st, drive component rotating cylinder is lifted；62nd, drive component rotating shaft is lifted；63rd, travelling gear； 64th, lifting arc-shaped rack；65th, middle rotating disk；

70th, drive shaft；71st, drive gear is lifted；72nd, rotary drive gear；73rd, driven gear is lifted；74th, rotary drive Gear.

Embodiment

Detailed description below is referring to figs. 1 to Figure 11

A kind of spindle device for being equipped with core setting machine structure, including spindle 10 and spindle support 11, the spindle 10 include spindle blade 101st, the spindle blade pedestal 103 of spindle blade bottom, the belt wheel 104 on spindle blade pedestal are arranged on, spindle blade base bottom is arranged on Ingot axle 105, the ingot axle 105 by bearing 12 be arranged on spindle support on.

The spindle support 11 is provided with core setting machine structure 20, and the core setting machine structure includes the elevating lever that top is provided with locating piece 22 21st, the lifting drive component 30 of driving lifter rod lifting, the rotary drive assembly 60 of driving elevating lever rotation；The bottom of locating piece Open up the semi-spherical shape groove coordinated with spindle top；The elevating lever is in 7 fonts.

The rotary drive assembly 30 includes being pivotally connected rotary drive assembly rotating cylinder 32 on the substrate 31 and rotation driving group Part rotating shaft 33, the rotate gear 34 in the rotary drive assembly rotating shaft, it is arranged on the inside of rotary drive assembly rotating cylinder One section of rotation arc-shaped rack 36 on wall；The axial line of rotary drive assembly rotating shaft deviates the rotation of rotary drive assembly rotating cylinder Center line.The rotary drive assembly rotary shaft hollow, the activity of elevating lever 21 is plugged in the hollow of rotary drive assembly rotating shaft Guide pad 330 is set on intracavitary, the side wall of middle cavity, the side wall of elevating lever is provided with the guide groove 210 coordinated with the guide pad.

The lifting drive component 60 includes the lifting drive component rotating cylinder 61 of pivot joint on the substrate 31 and lifting driving group Part rotating shaft 62, the travelling gear 63 in the lifting drive component rotating shaft, it is arranged on the inside of lifting drive component rotating cylinder One section of lifting arc-shaped rack 64 on wall, the middle rotating disk 65 on substrate；Lift the axial line of drive component rotating shaft Deviate the rotation centerline of lifting drive component rotating cylinder.The lifting drive component rotary shaft hollow, the elevating lever 21 is screwed onto Lift the hollow intracavitary of drive component rotating shaft；The middle rotating disk is engaged with the travelling gear.

The substrate 31 is arranged on spindle support 11；The rotary drive assembly 30 is located at the lower section of substrate, and the lifting is driven Dynamic component 60 is located at the top of substrate；Drive shaft 70 is articulated with substrate, the top of drive shaft is provided with lifting drive gear 71, The bottom of drive shaft is provided with rotary drive gear 72；The periphery of lifting drive component rotating cylinder 61 is provided with lifting driven gear 73, the periphery of rotary drive assembly rotating cylinder 32 is provided with rotary drive gear 74, and lifting drive gear is nibbled with lifting driven gear Close, rotary drive gear is engaged with rotary drive gear.

On rotary drive assembly 30, locking system 40 is provided with rotary drive assembly rotating cylinder 32, locking system includes peace The first semicircular ring 42 and the second semicircular ring 43 on base 41, the solution lock slide 44 being slidably fitted on base, it is arranged on Slide bar 45 on rotating cylinder madial wall；First semicircular ring and the second semicircular ring are symmetrically arranged on rotary drive assembly rotating shaft 33 The left and right sides, the tail end of the tail end of the first semicircular ring and the second semicircular ring is hinged on base 41, the head end of the first semicircular ring With the head end elastic connection of the second semicircular ring, the first semicircular ring, the second semicircular ring are contacted with rotary drive assembly axis friction；Solution Lock slide 44 is located between the head end of the first semicircular ring and the head end of the second semicircular ring, and solution lock slide is provided with curved groove 46.

On rotary drive assembly 30, the base 41 is arranged on the substrate 31；The base is provided with articulated column 47, the tail end of the tail end of first semicircular ring 42 and the second semicircular ring 43 is hinged on the articulated column；First semicircle The head end of ring and the head end of the second semicircular ring pass through the elastic connection of adjustable spring 48.

On rotary drive assembly 30, the head end of the first semicircular ring 42, which is provided with the first extension 49, the first extension, to be opened If the first V-arrangement chute 50；The head end of second semicircular ring is provided with the second extension, the second extension and opens up the second V-arrangement chute, the One V-arrangement chute and the second V-arrangement chute are symmetrical set；Solve lock slide 44 and be provided with the first slide bar 53 and the second slide bar 54, institute State the first slide bar to coordinate in the first V-arrangement chute, second slide bar coordinates in the second V-arrangement chute；Base 41 On open up linear sliding block chute 55, solution lock slide is slidably fitted in the sliding block chute；First V-arrangement chute is straight by first Linear chute 51 and Article 2 linear chute 52 is combined, wherein, first linear chute is put down with the sliding block chute OK.

On rotary drive assembly 30, the curved groove 46 is S-shaped, the mistake that the slide bar 45 is slided in the curved groove Cheng Zhong, solution lock slide moves linearly along the sliding block chute, and the first slide bar on solution lock slide is first by the straight line Shape chute slips into the Article 2 linear chute, and the head end of the first semicircular ring and the head end of the second semicircular ring are mutually drawn close, it Afterwards, the first slide bar on solution lock slide slips into first linear chute by the Article 2 linear chute, and the first half The head end of annulus and the head end of the second semicircular ring are located remotely from each other.

On rotary drive assembly 30, the bottom of the first extension 49 is provided with first time convex portion 56, the bottom of the second extension Portion is provided with to open up on second time convex portion, first time convex portion opens up the second lockhole on the first lockhole, second time convex portion；Solve lock slide 44 The first upper convex portion 57 and the second upper convex portion 58 are provided with, the first upper convex portion is provided with the first lock pin 59, and the second upper convex portion is provided with Second lock pin, the first lock pin and the second lock pin are laterally set；First slide bar 53 is arranged on the top of the first upper convex portion, described Second slide bar 54 is arranged on the top of second upper convex portion, and the first slide bar and the second slide bar, which are erect, to be set.

On rotary drive assembly 30, first slide bar slips into described first by the Article 2 linear chute 52 The process of linear chute 51, is exactly that the first lock pin inserts the mistake that first lockhole, the second lock pin insert second lockhole Journey.

On rotary drive assembly 30, the periphery of rotary drive assembly rotating shaft 33 is provided with elastic-friction ring 39, the first semicircle The semicircular ring 43 of ring 42 and second surrounds the elastic-friction ring, and is contacted with the elastic-friction ring resilience.

In practical operation, a kind of workflow for the spindle device for being equipped with core setting machine structure is as follows：

First, drive shaft 70 described in operation of worker makes rotary drive assembly 30 and the lifting synchronization action of drive component 60；

Second, rotary drive assembly 30 drives elevating lever 21 to be rotated along vertical rotation centerline, at the top of elevating lever Locating piece 22 leaves the top of spindle；

3rd, textile-bobbin is sleeved on spindle blade 101, and bobbin is exposed on spindle blade top；

4th, rotary drive assembly 30 drives the spinning reduction of elevating lever 21 to the top of spindle blade 101, and lifting drive component 60 drives Dynamic elevating lever 21 declines, and the semi-spherical shape groove of locating piece 22 is enclosed on the top of spindle blade；

5th, transmission belt driving pulley 104 rotates, belt wheel drive spindle blade 101 and thereon textile sleeve rotation.

Above content is only the better embodiment of the present invention, for one of ordinary skill in the art, according to the present invention Thought, will change in specific embodiments and applications, this specification content should not be construed as to this hair Bright limitation.

Claims (9)

1. a kind of spindle device for being equipped with core setting machine structure, including spindle (10) and spindle support (11), the spindle pass through bearing (12) it is arranged on spindle support；

It is characterized in that：The spindle support (11) is provided with core setting machine structure (20), and the core setting machine structure includes top and is provided with locating piece (22) elevating lever (21), the lifting drive component (30) for driving lifter rod lifting, the rotation driving group of driving elevating lever rotation Part (60)；

The bottom of locating piece opens up the semi-spherical shape groove coordinated with spindle top；

The elevating lever is in 7 fonts.

2. a kind of spindle device for being equipped with core setting machine structure as claimed in claim 1, it is characterised in that：The rotation driving group Part (30) includes the rotary drive assembly rotating cylinder (32) being articulated on substrate (31) and rotary drive assembly rotating shaft (33), is arranged on Rotate gear (34) in the rotary drive assembly rotating shaft, one section be arranged on rotary drive assembly rotating cylinder madial wall rotation With arc-shaped rack (36)；The axial line of rotary drive assembly rotating shaft deviates the rotation centerline of rotary drive assembly rotating cylinder；

The rotary drive assembly rotary shaft hollow, elevating lever (21) activity is plugged in the middle cavity of rotary drive assembly rotating shaft It is interior, guide pad (330) is set on the side wall of middle cavity, the side wall of elevating lever is provided with the guide groove coordinated with the guide pad (210)。

3. a kind of spindle device for being equipped with core setting machine structure as claimed in claim 2, it is characterised in that：The lifting driving group Part (60) includes the lifting drive component rotating cylinder (61) being articulated on substrate (31) and lifting drive component rotating shaft (62), is arranged on The travelling gear (63) lifted in drive component rotating shaft, one section of lifting being arranged on lifting drive component rotating cylinder madial wall Middle rotating disk (65) with arc-shaped rack (64), on substrate；The axial line for lifting drive component rotating shaft deviates lifting drive The rotation centerline of dynamic component rotating cylinder；

The lifting drive component rotary shaft hollow, the elevating lever (21) is screwed onto the hollow intracavitary of lifting drive component rotating shaft；

The middle rotating disk is engaged with the travelling gear.

4. a kind of spindle device for being equipped with core setting machine structure as claimed in claim 3, it is characterised in that：Substrate (31) peace On spindle support (11)；

The rotary drive assembly (30) is located at the lower section of substrate, and the lifting drive component (60) is located at the top of substrate；

Drive shaft (70) is articulated with substrate, the top of drive shaft is provided with lifting drive gear (71), the bottom peace of drive shaft Equipped with rotary drive gear (72)；

The periphery of lifting drive component rotating cylinder (61) is provided with outside lifting driven gear (73), rotary drive assembly rotating cylinder (32) Enclose and rotary drive gear (74) be installed, lifting drive gear with lifting driven gear engage, rotary drive gear and rotate from Moving gear is engaged.

5. a kind of spindle device for being equipped with core setting machine structure as claimed in claim 2, it is characterised in that：Rotary drive assembly turns Locking system (40) is provided with cylinder (32), locking system includes the first semicircular ring (42) and the second half being arranged on base (41) Annulus (43), the solution lock slide (44) being slidably fitted on base, the slide bar (45) on rotating cylinder madial wall；

First semicircular ring and the second semicircular ring are symmetrically arranged on the left and right sides of rotary drive assembly rotating shaft (33), first The tail end of semicircular ring and the tail end of the second semicircular ring are hinged on base (41), the head end of the first semicircular ring and the second semicircular ring Head end elastic connection, the first semicircular ring, the second semicircular ring are contacted with rotary drive assembly axis friction；

Solve lock slide (44) to be located between the head end of the first semicircular ring and the head end of the second semicircular ring, solution lock slide is provided with curve Groove (46).

6. a kind of spindle device for being equipped with core setting machine structure as claimed in claim 5, it is characterised in that：Base (41) peace On the substrate (31)；

The base is provided with articulated column (47), the tail end of first semicircular ring (42) and the tail end hinge of the second semicircular ring (43) It is connected on the articulated column；

The head end of first semicircular ring and the head end of the second semicircular ring pass through adjustable spring (48) elastic connection.

7. a kind of spindle device for being equipped with core setting machine structure as claimed in claim 5, it is characterised in that：First semicircular ring (42) Head end be provided with the first extension (49), open up the first V-arrangement chute (50) on the first extension；The head end of second semicircular ring is provided with The second V-arrangement chute is opened up on second extension, the second extension, the first V-arrangement chute and the second V-arrangement chute are symmetrical set；

Solve lock slide (44) and be provided with the first slide bar (53) and the second slide bar (54), first slide bar coordinates in the first V In shape chute, second slide bar coordinates in the second V-arrangement chute；

Linear sliding block chute (55) is opened up on base (41), solution lock slide is slidably fitted in the sliding block chute；

First V-arrangement chute is combined by first linear chute (51) and Article 2 linear chute (52), wherein, first Bar linear chute is parallel with the sliding block chute；

The curved groove (46) is S-shaped, during the slide bar (45) is slided in the curved groove, and solution lock slide is described in Sliding block chute moves linearly, and the first slide bar on solution lock slide slips into the Article 2 by first linear chute first Linear chute, the head end of the first semicircular ring and the head end of the second semicircular ring are mutually drawn close, afterwards, and first on solution lock slide is slided Bar slips into first linear chute, the head end of the first semicircular ring and the second semicircular ring by the Article 2 linear chute Head end be located remotely from each other.

8. a kind of spindle device for being equipped with core setting machine structure as claimed in claim 7, it is characterised in that：First extension (49) Bottom provided with first time convex portion (56), the bottom of the second extension, which is provided with second time convex portion, first time convex portion, opens up first The second lockhole is opened up on lockhole, second time convex portion；

Solve lock slide (44) and be provided with the first upper convex portion (57) and the second upper convex portion (58), the first upper convex portion is provided with the first lock pin (59), the second upper convex portion is provided with the second lock pin, and the first lock pin and the second lock pin are laterally set；First slide bar (53) is set At the top of the first upper convex portion, second slide bar (54) is arranged on the top of second upper convex portion, the first slide bar and second Slide bar, which is erect, to be set；

First slide bar is slipped into the process of first linear chute (51) by the Article 2 linear chute (52), It is exactly that the first lock pin inserts the process that first lockhole, the second lock pin insert second lockhole.

9. a kind of spindle device for being equipped with core setting machine structure as claimed in claim 5, it is characterised in that：Rotary drive assembly turns The periphery of axle (33) is provided with elastic-friction ring (39), and the first semicircular ring (42) and the second semicircular ring (43) surround the elastic-friction Ring, and contacted with the elastic-friction ring resilience.